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Topological design of the octahedron tensegrity family

Manuel Alejandro Fernández-Ruiz, Enrique Hernández‐Montes, Luisa María Gil‐Martín

2022Engineering Structures17 citationsDOIOpen Access PDF

Abstract

Tensegrity structures have developed greatly in recent years due to their unique mechanical and mathematical properties. In this work, the topology of the Octahedron family is presented. New tensegrity structures that belong to this family are defined based on their topology. As an example, the eleven-time-expanded octahedron is shown, a super-stable tensegrity formed by 12,288 nodes, 6,144 struts, and 24,576 cables (the largest super-stable tensegrity reported in the literature in terms of number of nodes, cables, and struts so far). The values of the force:length ratios which satisfy the super-stability conditions have also been determined based on the topology of the Octahedron family. Consequently, the computational cost of the process of determining a suitable prestress state and its corresponding equilibrium shape (a process called form-finding) is significantly reduced. The members of the Octahedron family could have promising engineering and bioengineering applications.

Topics & Concepts

TensegrityOctahedronTopology (electrical circuits)Stability (learning theory)Process (computing)Structural engineeringTopology optimizationComputer scienceMathematicsCombinatoricsEngineeringCrystallographyFinite element methodChemistryMachine learningOperating systemCrystal structureStructural Analysis and OptimizationAdvanced Materials and MechanicsSurface Modification and Superhydrophobicity
Topological design of the octahedron tensegrity family | Litcius